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Synthesis, morphology and electrical property characteristics of MXene based titanium carbide (Ti3C2Tx) coating on non-woven cotton paper

In the present study, Ti3C2Tx type MXene was prepared by selective etching of Al from Ti3AlC2 with mesh size of 200. The powder form of raw material was used to fabricate Ti3C2Tx by in-situ HF etching method. The MXene is further coated on non-woven paper by simply dip coating method. The detailed s...

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Bibliographic Details
Published in:Digest Journal of Nanomaterials and Biostructures 2024-01, Vol.19 (1), p.15-24
Main Authors: Jothiramalingam, R., Radhika, T., Kavitha, N. P., Al-Lohedan, H., Aldhayan, D.M., Karnan, M.
Format: Article
Language:English
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Summary:In the present study, Ti3C2Tx type MXene was prepared by selective etching of Al from Ti3AlC2 with mesh size of 200. The powder form of raw material was used to fabricate Ti3C2Tx by in-situ HF etching method. The MXene is further coated on non-woven paper by simply dip coating method. The detailed structural, morphology and elemental content study of as prepared Ti3C2Tx MXene have demonstrated. The MXene (Ti3AlC2) powders show compact, layered morphology as expected for bulk layered ternary carbide. The detailed elemental analysis has carried out for Titanium carbide based MXene coated and uncoated woven paper. The lower conducting property obtained for paper coating due less amount of coating in the surface of paper instead of coating on glass substrate. The electrical property characterization of MXene coated non-woven paper and glass substrate have also been studied. Hence, the conductive coating of MXene-in water formulation achieved through simple dip coating methods is promising for low cost sensor, wearable shielding device fabrication towards renewable energy and healthcare applications.
ISSN:1842-3582
1842-3582
DOI:10.15251/DJNB.2024.191.15